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A gas turbine engine is disclosed having a compressor, combustor, and turbine and a flow path therethrough. A flow path member is disposed between an inner surface of the flow path and a rotating shaft that couples the compressor and turbine. The flow path member directs a cooling fluid along a path

A gas turbine engine is disclosed having a compressor, combustor, and turbine and a flow path therethrough. A flow path member is disposed between an inner surface of the flow path and a rotating shaft that couples the compressor and turbine. The flow path member directs a cooling fluid along a path to cool a portion of the gas turbine engine between the inner surface and the rotating shaft. The flow path member is retained to permit radially free motion and can also be retained to permit axially free motion. The flow path member can have feed holes that permit the cooling fluid to pass.

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1. An apparatus comprising: a gas turbine engine including a rotatable shaft coupling a compressor and turbine and having a working fluid flow path through the compressor, a combustor, and the turbine; anda fluid flow path structured to pass a fluid and disposed between the shaft and a radially inne

1. An apparatus comprising: a gas turbine engine including a rotatable shaft coupling a compressor and turbine and having a working fluid flow path through the compressor, a combustor, and the turbine; anda fluid flow path structured to pass a fluid and disposed between the shaft and a radially inner surface of the working fluid flow path, the fluid flow path including a flow directing member that is stationary relative to the rotatable shaft, the flow directing member retained within the gas turbine engine via a coupling that includes a protruding member at an end such that the protruding member is slidably retained in a component of the gas turbine engine to permit radially free motion relative to the working fluid flow path during operation of the gas turbine engine;wherein the flow directing member is in contact with a portion of the gas turbine engine at another end, the contact permitting axially free and radially free movement of the flow directing member. 2. The apparatus of claim 1, wherein the flow directing member is located in axial proximity to the combustor and wherein the radially inner surface of the working fluid flow path is a case of the combustor. 3. The apparatus of claim 1, wherein the flow directing member is annular. 4. The apparatus of claim 3, wherein the protruding member is a flange and which further includes a plurality of flow apertures located near the protruding member that admit the fluid in the fluid flow path. 5. The apparatus of claim 1, wherein the fluid is a cooling fluid and wherein the fluid flow path splits near the flow directing member to form a first branch path and a second branch path, the first branch path directed to the compressor and the second branch path directed to a turbine of the gas turbine engine. 6. The apparatus of claim 1, wherein the flow directing member is retained between a circumferential fastening component and a surface of a diffuser located between the compressor and the combustor, wherein the combustor includes an inner liner and an outer liner, and wherein the compressor of the gas turbine engine is an axial flow compressor. 7. An apparatus comprising: a gas turbine engine having a compressor, combustor, and turbine, the compressor and turbine coupled to rotate together via a shaft, the combustor having an inner case and an outer case;a cooling flow path disposed in the gas turbine engine and configured to pass a cooling flow; anda flow directing device located between a later stage of the compressor and the turbine and having a flow surface positioned between the rotatable shaft and the inner case of the combustor, the flow surface of the flow directing device being a radially outer surface that forms a cooling flowpath surface, the flow directing device also having a radially inner surface that forms a windage heating surface, where the flow directing device is structured to discourage windage heating of the cooling flow being passed in the cooling flow path by virtue of being interposed between the rotatable shaft and the inner case of the combustor, the flow directing device having a first coupling portion structured to permit radially free movement and a second coupling portion structured to permit axially free movement. 8. The apparatus of claim 7, wherein the flow directing device is stationary relative to a rotating component of the gas turbine engine. 9. The apparatus of claim 8, wherein the flow directing device includes a second flow surface positioned between the rotatable shaft and the inner case of the combustor, the cooling flow path and the second flow surface oriented to pass the cooling flow axially toward the turbine. 10. The apparatus of claim 9, wherein the flow directing device includes a first flow directing device having the flow surface and a second flow directing device having the second flow surface, wherein the first coupling portion of the first flow directing device is an end portion and the second coupling portion of the first flow directing device is another end portion, and wherein the second flow directing device having ends that are coupled to the gas turbine engine to permit radially and axially free movement. 11. The apparatus of claim 8, wherein the flow directing device includes a sheet metal portion welded to a forged end portion. 12. The apparatus of claim 8, wherein the flow directing device includes stiffening ribs at an end portion. 13. The apparatus of claim 7, wherein the cooling flow path includes a portion directed radially inward toward the shaft upstream of the flow surface, the cooling flow path structured to pass a cooling flow from an upstream location in the compressor. 14. The apparatus of claim 8, wherein the cooling flow path passes through a diffuser downstream of the compressor, and wherein the cooling flow path and the flow surface oriented to pass the cooling flow axially toward the compressor. 15. An apparatus comprising: a gas turbine engine having a rotatable shaft coupling a compressor and a turbine, a combustor disposed between the compressor and turbine and operable to combust a mixture of a working fluid and a fuel; anda fluid pathway structured to deliver a fluid to an area between a casing of the combustor and the shaft;means for directing the fluid toward the compressor; anda first support means for restraining axial movement and permitting radial movement of the fluid pathway relative to a static support structure of the gas turbine engine;wherein the fluid is a cooling fluid and which further includes a second support means for restraining radial movement and permitting axial movement of the fluid pathway relative to a static support structure of the gas turbine engine.